JPH01178255A - Alveolar bone implant, lower jawbone implant and lower jawbone reconstructing implant composed of combination thereof - Google Patents

Abstract

PURPOSE:To mount a denture so as to prevent the sinking thereof by forming an alveolar bone implant and a lower jawbone implant or a lower jawbone reconstructing implant composed of a combination thereof from titanium and providing a large number of protruding pieces having screw fastening openings to a base body in a protruding state. CONSTITUTION:An alveolar bone implant 1 and a lower jawbone implant 2 or a lower jawbone reconstructing implant 3 composed of a combination thereof are embedded in a lower jawbone deficient part excised because of tumor or other disease to be fastened and fixed to the deficient edge part in a lower jawbone by screws 4 made of titanium or, when the lower jawbone is deficient inclusive of an articular process, said implants are pivotally mounted to an upper jawbone joint part A by the pivot shaft provided to one end of the lower jawbone implant 2. The alveolar bone implant 1 is formed by casting titanium and a large number of protruding pieces 12... are provided to the rod-like base body 11 thereof on one side thereof at a proper interval and screw fastening openings 13 are provided to the protruding pieces 12 and, when a lower jaw region containing a mental part is incised, said implant 1 is cut into an appropriate length in matching relation to the shape and size of the deficient part of the lower jawbone and fitted to the shape of the face by a binder to be fastened and fixed by screws.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention provides alveolar bone to be implanted in the resected site of the mandible after the mandibular bone has been removed due to a tumor, etc., in order to restore the function of the mandible and the shape of the face. The present invention relates to an implant, a mandibular bone implant, and a mandibular reconstruction implant formed by combining these.

[Conventional technology]

Traditionally, after the mandibular bone has been removed due to a tumor, etc., hip bone, etc., has been transplanted to restore mandibular function and facial morphology, or bone grafts have been transplanted using plates made of nickel, chromium, etc. Methods of tethering, reconstructing the defective part of the mandible, and artificial body implantation methods of implanting an artificial body into the defective part of the mandible are being used. Focusing on titanium, which has a high affinity with in-vivo tissues, artificial body implantation methods have also been carried out in which titanium is plasma-coated on a nickel-chromium alloy. There is.

[Problem to be solved by the invention] However, when plates or artificial implants made of nickel, chromium, etc. are used, these metals corrode the surrounding tissue and the metals are exposed on the surface of the skin. In addition, in the case of prosthetic implantation methods that use a nickel-chromium alloy coated with titanium, the prosthetic implant may need to be re-treated during surgery to match the facial morphology. There was a problem that when the filling material was bent with a binder, the material was damaged and lost its original characteristics. In addition, because conventional implants have a shape of connected rings, they can cause unevenness on the jaw line, and when they are inserted and fixed at the top of the alveolar bone, the unevenness of the top surface of the implant can cause pain in the gums when wearing dentures. It was also difficult to wear dentures. In addition, when preparing mandibular bone implants for unilateral mandibular resection, if countersunk holes are formed on both sides of one hole, the thickness of the implant becomes large, which is undesirable. Because the hole is formed, there is a directionality when inserting the implant, and it was necessary to manufacture the left and right mandibular implants separately. In view of the problems in reconstructing the mandible after resection, it is an implant that is placed in the defective part of the mandible to restore mandibular function and facial shape.It has a high affinity with living cells and does not require re-treatment. enables permanent treatment,
The aim is to provide a mandibular reconstruction implant that not only restores the opening and closing movements of the jaw, but also allows the gums to bulge, making it possible to wear dentures and returning the jaw line to its original state.

Means for Solving Problem C] In order to solve the above-mentioned problems, the present invention includes a titanium rod-shaped base body, and a number of holes for screwing which are protruded from one side of the base body at appropriate intervals. an alveolar bone implant consisting of protrusions having the same structure, and the base part between each protrusion serving as a bent part; A mandibular bone implant in which countersinks are provided in every other hole where the positions of both sides of the screw hole do not overlap, and the holes are bent in the middle; and a mandibular reconstruction consisting of the alveolar bone implant and the mandibular implant. The aim is to provide implants.

[Effect]

The above-mentioned alveolar bone implant according to the present invention is implanted near the alveolar crest in the case of resection of the mandibular region including the udder region or unilateral resection of the mandible, and the alveolar bone implant is placed near the alveolar crest with the projecting piece on the lower side. It is inserted near the alveolar crest of the defective part of the mandible that has been bent and resected to fit the facial morphology, and titanium screws are used in the screw holes in the protrusions located at both ends to prevent the mandible from being removed. It is fixed with screws to the remaining mandibular edge or to another implant if it is used in conjunction with the mandible.In addition, mandibular implants are placed into the defective part of the mandible after unilateral mandibular resection. , one end is placed under the temporomandibular joint, bent to fit the shape of the face, and implanted along the lower edge of the mandible in the resected large part of the mandible, and one end located under the temporomandibular joint is fixed with a titanium screw. It is fixed to the mandible below the joint, or if the articular process is included and resected, it is pivoted to the maxillary joint using a pivot provided at the end, and the other end is made of titanium and attached to the edge of the mandibular defect. The mandibular reconstruction implant is a combination of the alveolar bone implant and the mandibular bone implant.
The alveolar bone implant is bent to fit the facial shape and placed near the alveolar crest of the resected mandibular bone defect with the protrusion facing down, and one end of the mandibular bone implant is placed below the temporomandibular joint to adjust the facial shape. Place the alveolar bone implant into the resected mandibular defect along the lower edge of the mandible, and connect one end of the alveolar bone implant to the defect edge of the mandible and the other end to the mandibular implant with a titanium screw. In addition, one end of the mandibular implant is screwed to the edge of the mandibular defect with a titanium wire screw, and the other end is screwed to the lower part of the mandibular joint, or if the mandibular articular process is removed. The mandibular implant is pivoted to the maxillary joint by a pivot provided in the recessed part of the mandibular implant.

〔Example〕

The present invention will be explained in more detail below based on the attached drawings.

The alveolar bone implant 1 and the mandibular bone implant 2 according to the present invention, as well as the mandibular reconstruction implant 3 formed by combining these, are implanted into a mandibular defect part that has been removed due to a tumor or other disease, as shown in FIG. Then, a titanium screw 4 is screwed and fixed to the edge of the defect in the mandible, or if the mandible is defective including the articular process as shown in FIG. 1, one end of the mandibular implant 2 is fixed. It is pivotally connected to the maxillary bone joint A by a pivot 5 provided at the maxillary bone joint A.

The alveolar bone implant 1 is made by casting titanium, etc., and as shown in FIG. 2, a number of projecting pieces 12 are provided protruding from one side of a rod-shaped base 11 at appropriate intervals. Projection piece 12
The hole 13 is provided with a hole 13 for fixing a screw, and in the case of resection of the mandibular region including the mandibular part as shown in Fig. 3, this hole is set to an appropriate length according to the size of the defective part of the mandible. Cut it into pieces, bend it with a vaver to fit the facial shape, and insert it into the mandible B near the alveolar crest, where it was removed due to a disease such as a tumor, with the protruding piece facing downwards as shown in the illustration. Both ends are fixed with screws 4 made of titanium at the defect edge of the mandible. At this time, the lower edge of the mandible in the defect area is connected and fixed with another implant (2) as appropriate. In the alveolar bone implant 1, the base body 11
The portions 11a between the protruding pieces in are the bending parts, and this portion 11a is easy to bend when bending the alveolar bone implant 1 to suit the facial morphology, but it is also possible to bend the portion including the protruding pieces 12. , furthermore, the portion 11a between the protrusions
This also serves as a cutting part when cutting the alveolar bone implant 1 to an appropriate length according to the size of the mandibular bone defect. Further, after the alveolar bone implant 1 is inserted into the defective part of the mandible B, a denture is attached to the gingiva formed thereon, and the upper side 11b of the base body 11 of the alveolar bone implant 1, That is, by forming the opposite side of the projecting piece 12 into a curved shape as shown in the figure, proper occlusion can be achieved without causing pain when the denture is worn. Furthermore, by making the base body 11 of the alveolar bone implant 1 into a round rod shape as shown in FIG. This makes it easier to bend it with a bender to fit the shape of the face. In addition, this alveolar bone implant 1 can be used not only for resection of the mandibular region including the udder region as shown in Fig. 3, but also for
Even in the case of resection of the upper part of the mandible as shown in FIG. 1, it can be used in combination with the mandibular implant 2.

Next, the mandibular bone implant 2 is made by casting titanium, etc., and as shown in FIG. 5 or 6, a flat plate-shaped substrate 2
A large number of screw holes 22 are drilled through the board 1 from one side to the other, and the opening edges of the screw holes 22 are aligned so that the positions on both side surfaces 21a and 21b of the substrate 21 do not overlap. By forming a countersunk hole 22a at every turn, the screw holes 22 on both sides 21a, 21b of the board 21...
- The edge of every other hole is configured to be a countersunk hole, and the intermediate part of the base plate 21 is bent 21c to match the shape of the lower edge of the lower jaw. . In the mandibular implant 2 formed as described above, every other screw hole 22 on both sides 21a, 21b of the base plate 21 is formed into a countersunk hole 22a, so that the mandibular implant 2 is formed as shown in FIG. By inverting it as shown in (a) or (b), it can be used as an implant for either the left or right half of the lower jaw, simplifying the manufacturing process. In addition, the alveolar bone implant 2 is formed by reducing the width of the base plate between the screw holes 21d for every two adjacent screw holes 22 and 22a on the side of the implant, so that the mandibular bone can be damaged during the implantation surgery. This makes it easier to cut the material to an appropriate length depending on the size of the body, or to bend it to suit the shape of the face. Furthermore, the mandible implant 2
By providing a pivot 5 protruding from one end as shown in Fig. 7, when the mandible B including the articular process is resected,
By pivotally attaching the pivot 5 to the maxillary joint A, the mandibular implant 2 can be implanted in a manner that it can be opened and closed.

For example, when the mandibular implant 2 is implanted with bone grafting after unilateral resection of the mandible as shown in FIG. It is also possible to implant the alveolar bone implant 1 in combination with the alveolar bone implant 1 as shown in FIG. 1 without using it together.

The alveolar bone implant and mandibular bone implant according to the present invention as described above, as well as the mandibular reconstruction implant formed by combining these, are made of titanium that has high affinity with living tissue, so they are stable in the tissue. Highly sensitive (
, the mandible can be reconstructed and re-treated by blending with human cells and forming surrounding muscles, without corroding the surrounding tissue like when conventional metals such as nickel and chromium are used. Moreover, even if the implant is damaged by bending it with a vender to suit the facial shape during implant placement surgery, as in the case where titanium is simply coated on the alloy, the essential characteristics will not be lost. There's nothing to do.

In addition, by inserting an alveolar bone implant, a bulge of the gums is created on the alveolar bone implant, which prevents the denture from sinking and makes it possible to wear the denture, and the upper surface of the base of the alveolar bone implant has a curved shape. This allows for smooth occlusal movements and correct pronunciation without causing pain when inserting the denture, and eliminates the need for bone grafting even when the patient is in a growing period and bone grafting is difficult. It is possible to reconstruct the alveolar bone.

Furthermore, the mandibular bone implant of the present invention has a large number of screw holes drilled in the base plate, so that it can be cut to an appropriate size according to the size of the patient's mandibular fracture damage. By providing a countersunk hole for every other screw hole on the opposite side of the board, it can be adapted to whether the left or right mandible is resected by reversing the board.
The manufacturing process of the implant can be simplified.

In addition, the mandibular reconstruction implant, which is a combination of the alveolar bone implant and the mandibular bone implant, can be used by cutting each of both implants into appropriate lengths according to the size of the patient's mandibular bone defect, and By reconstructing the mandible by bending two implants, an alveolar bone implant near the apex and a mandibular bone implant along the lower edge of the mandible, according to the facial shape, the function of the mandible is restored and the facial shape is restored. Not only is it possible to
Even when the patient is in a growing stage and bone grafting is not desirable, the mandible can be reconstructed without bone grafting.

〔Effect of the invention〕

The alveolar bone implant, the mandibular bone implant, and the mandibular reconstruction implant formed by combining these according to the present invention as described above have the following effects.

Since it is made of titanium, which has a high affinity with living tissue, it has high stability within the tissue, blends well with human cells, and develops muscles around it, unlike when conventional metals such as nickel and chromium are used. Because the mandible can be rebuilt without corroding the surrounding tissue, there is no need for fresh treatment, and unlike the case of simply coating other alloys with titanium, implant placement surgery is not necessary. Even if the implant is damaged when it is bent with a binder to suit the shape of the face, the original properties of titanium will not be lost.

In addition, the alveolar bone implant has a shape in which the base has a number of projecting pieces with holes for screwing, so it can be cut to an appropriate length to fit the large defect in the patient's mandible. In addition, by inserting the alveolar bone implant, a bulge of the gums is formed on the alveolar bone implant, which prevents the denture from sinking and allows the denture to be attached. The curved surface allows for smooth occlusal movements and correct pronunciation without causing pain when inserting the denture, and even when the patient is in the growth phase, alveolar bone can be removed without bone grafting. It can be rebuilt.

In addition, by drilling a large number of screw holes in the base of the mandibular bone implant, it can be cut to an appropriate size according to the size of the patient's mandibular fracture damage, and the screw holes can be By providing countersinks on the opposite side of the substrate for every other implant, it is possible to adapt to the case where either the left or right mandible is resected by reversing the position, and the manufacturing process of the implant can be simplified.

In addition, by using a mandibular reconstruction implant that combines the alveolar bone implant and mandibular bone implant, two implants, the alveolar bone implant near the alveolar crest and the mandibular bone implant along the lower border of the mandible, can be used to improve facial appearance. Since the mandible is reconstructed by bending it to match the shape, it is not only possible to restore the facial shape, but also can be cut to an appropriate length to fit the size of the patient's mandibular defect. In addition, even when the patient is in a growing period and bone grafting is not desirable, the mandible can be reconstructed without bone grafting.

[Brief explanation of the drawing]

FIG. 1 is an explanatory perspective view of a mandibular reconstruction implant comprising an alveolar bone implant and a mandibular bone implant according to the present invention, FIG. 2 is an enlarged perspective view of one embodiment of the alveolar bone implant, and FIG. 3 is an explanatory perspective view of the alveolar bone implant. FIG. 4 is a perspective view showing another embodiment of the alveolar bone implant, and FIGS. FIG. 6 is a front view of the mandibular implant, FIG. 7 is a perspective view of another embodiment of the mandibular implant, and FIG. 8 is a perspective view of the lower FIG. 2 is a perspective view for explaining a state in which a jawbone implant is implanted in combination with bone grafting. lri cisternal bone implant, 2: mandibular bone implant, 3
: Mandibular reconstruction implant, 4 Niscrew, 5:
Pivot, 11: Base, 12: Projection, 13: Screw hole, 21: Substrate, 22: Screw hole. Figure 2 Figure 6

Claims (1)

[Scope of Claims] 1) A rod-shaped base made of titanium, and a plurality of protrusions protruding from one side of the base at appropriate intervals and each having apertures for screw fixing, the base portion between each protrusion. The bent part becomes the alveolar bone implant. 2) The alveolar bone implant according to claim 1, wherein the side of the base body opposite to the side on which the protruding piece is provided has a curved surface shape. 3) The alveolar bone implant according to claim 2, which uses a round rod as the base. 4) The alveolar bone implant according to claim 1 or 2 or 3, wherein the protrusion has a substantially semicircular shape. 5) A large number of screw holes are drilled through the titanium flat plate substrate from one side to the other, and the edges of every other hole where the positions of the screw holes on both sides of the substrate do not overlap are used as countersunk holes, A mandibular implant that is bent at the midpoint of the base. 6) The mandibular bone implant according to claim 5, wherein the width of the substrate portion between the screw holes is reduced for every two adjacent screw holes. 7) The mandibular implant according to claim 5 or 6, wherein a pivot is provided protruding from one end. 8) An alveolus consisting of a titanium rod-shaped base, a number of protrusions protruding from one side of the base at appropriate intervals, each having apertures for screw fixing, and a portion of the base between each protrusion serving as a bent part. At one end of the bone implant, a large number of screw holes are drilled through the titanium flat plate base from one side to the other, and the edges of every other hole are formed so that the positions of the screw holes on both sides of the base plate do not overlap. The mandibular implant is bent at the intermediate portion of the countersunk substrate and is screwed with a titanium screw with the screw hole of the alveolar bone implant and the screw hole of the mandibular implant overlapping each other. Mandibular reconstruction implant.